MATERIALS
TITAN - Ti-6AL-4 V-ELI
Titanium Ti-6AL-4V-ELI is a very efficient material for making upgrades and implants due to its favorable combination of properties such as low specific gravity, high strength to weight ratio, high modulus of elasticity, very high corrosion resistance and excellent general biocompatibility.
ELI has been known before as Ti-6AL-4 V-ELI . ELI stands for "Extra Low Interstitials" which provides greater ductility and better fracture toughness.
Advantages
Low specific gravity
High strength to weight ratio
High modulus of elasticity
High corrosion resistance
Excellent overall biocompatibility
A wide range of superstructures that have precise connections to implants allows the physician to select the most appropriate abutment for each clinical case of each patient. With a variety of designs, titanium upgrades promise success.
ZIRCONIA - ZIRCONIUM (ZrO2)
Zircon upgrades have been introduced in dental implantology as an alternative to metal. Due to its biocompatibility, color and mechanical properties, zirconium is a suitable replacement for metal abutment. Bacterial adhesion, which is important in maintaining zirconia replacements without periodontal problems, has been shown to be satisfactorily low. One of the main advantages is that there is none no allergic reactions when zirconium is used. In addition, there is almost no risk of corrosion, which is often a problem with metal upgrades. It also boasts of its extraordinary strength and endurance that can last a very long time. Metal-free upgrades are also resilient to acids that can act in the mouth. Neo Lab is dedicated to designing and manufacturing premium zircon upgrades that meet the highest requirements of precision, quality and innovation. Zircon abutment is ideal a solution to the growing demand for non-metallic products.
ZIRCONIA (ZrO2)
Zirconium dioxide is one of the most studied ceramic materials. Pure ZrO2 has a monoclinic crystal structure at room temperature and transitions to tetragonal and cubic at elevated temperatures. Several different oxides are added to zirconium to stabilize the tetragonal and / or cubic phases: magnesium oxide (MgO), yttrium oxide (Y203), calcium oxide (CaO), and cerium (III) oxide (Ce203).
Making of new "Injection Molding Technology" injection molding technology!
Advantages
Biocompatible material and antiallergen
ZrO2 provides perfect aesthetics and superior strength
Natural translucency without metals
The modulus of elasticity and coefficient of thermal expansion is similar to steel.
It allows the attraction of epithelial cells
Advanced solution for rehabilitation on implants for complete toothlessness
Excellent anti-friction properties
COBALT CHROME
Present in dentistry since 1929 due to lower costs and lower density compared to gold alloys.
In dentistry it is used with technique casting and machining.
Alloy is commonly used as a metal structure for crowns and bridges.
Advantages
Cobalt improves thermal stability
Chromium and Molybdenum improve corrosion resistance
Chrome Cobalt is a softer material than Titanium and therefore easier to process
High modulus of elasticity
High corrosion resistance
Excellent overall biocompatibility
Composition
Cobalt (66%), Chrome (27%), Molybdenum (6%), Others (<1%)
PEEK - POLYETHER ETHER KETONE
Peek Polymer is committed to fostering innovation in the medical device industry by providing advanced biocompatible materials and value-added solutions. Our products are proven, non-metallic biomaterials that provide superior shooting properties and advantages over alternative materials. All products are high quality biomaterials, designed for biocompatibility, safety and bio-stability, with a proven history of clinical outcomes and regulatory approval.
Neo Lab peek upgrades have been made of proven, non-metallic biomaterials that provide superior shooting properties and advantages over alternative materials.
Making of new "Injection Molding Technology" injection molding technology!
Advantages
Excellent mechanical properties such as durability, strength and durability
High chemical resistance
It can be sterilized without degradation of mechanical properties or biocompatibility
Compatibility with X-ray and CT imaging without artifact creation
MRI compatibility
Ability to sterilize without degradation of mechanical properties or biocompatibility
Natural color for excellent aesthetics
A metal-free option that eliminates ion exchange in the mouth
High compressive strength
Proven biocompatibility on hard and soft tissues
Allows the dentist to make changes to the work chair
LITHIUM-DISILICATE (LS2)
Lithium disilicate (LS2) glass-ceramics is distinct suitable for making monolithic restorations or veneered fillings in the front and rear area. Thanks to the natural color of the teeth and excellent light-optical properties, this material gives impressive results.
Neo Lab LS2 upgrades have been made of proven, non-metallic biomaterials that provide superior aesthetic properties over alternative materials.
The material is used in the dental laboratory together with the "Press" method or CAD / CAM technology.
Advantages
Excellent aesthetics and high strength (approx. 500 MPa)
Various applications and a wide range of indications
Minimally invasive preparation and adhesive cementation of crowns with a layer thickness of 1 mm
Clinical long-term success and scientifically documented results
Natural aesthetics regardless of the color of the preparation
PMMA - POLYMETHYL METHACRYLATE
The first use of polymethyl methacrylate (PMMA) in dentistry was to make complete denture bases. Due to its biocompatibility and reliability, PMMA remains popular and frequently used material in medicine.
PMMA is most commonly used today to make temporary crowns, bridges and dentures.
Due to the mentioned biocompatibility, PMMA is a common material in modern dentistry, especially in the production of dental prosthetics, artificial teeth and orthodontic appliances.
Advantages
Proven biocompatibility on hard and soft tissues
Easy to handle
Low cost of raw material